Memory, Synaptic Plasticity And Gene Networks In Schizophrenia
Funder
National Health and Medical Research Council
Funding Amount
$1,142,138.00
Summary
Schizophrenia affects about 1% of the population. Its typical progression over a lifetime leads to long-term impairment of cognition, reality distortion, and an impoverished quality of life. Most likely, multiple genes, interacting together or with environmental factors, are involved. Using a novel approach to its partition, WA researchers aim to unravel complex networks of genes affecting memory and brain function in a cognitive deficit subtype of schizophrenia they have identified recently.
Physiological And Neurochemical Mechanisms Of Executive Control
Funder
National Health and Medical Research Council
Funding Amount
$285,500.00
Summary
This study will examine how manipulating brain chemistry influences our ability to inhibit behaviour and monitor our own performance errors. We will determine the response of the brain using the physiological techniques of event-related potentials (ERPs) and functional magnetic resonance imaging (fMRI). The first technique allows us to determine how drugs influence the timing of neural events, while the second technique allows us to determine where in the brain these drugs act.
High Field Magnetic Resonance Evaluation Of Cerebral And Brainstem Dysfunction In Obstructive Sleep Apnea.
Funder
National Health and Medical Research Council
Funding Amount
$335,175.00
Summary
BACKGROUND: Obstructive Sleep Apnea (OSA) is a condition where repetitive obstruction of the upper airway occurs during sleep. This occurs in susceptible patients when the muscles which normally hold the upper airway open relax with sleep onset. During these interruptions to breathing (apneas) oxygen levels can fall significantly and repetitive awakenings from sleep result. Patients with sleep apnea are often sleepy during the day and experience difficulties with concentration on complex or bori ....BACKGROUND: Obstructive Sleep Apnea (OSA) is a condition where repetitive obstruction of the upper airway occurs during sleep. This occurs in susceptible patients when the muscles which normally hold the upper airway open relax with sleep onset. During these interruptions to breathing (apneas) oxygen levels can fall significantly and repetitive awakenings from sleep result. Patients with sleep apnea are often sleepy during the day and experience difficulties with concentration on complex or boring tasks. Recent improvements in magnetic resonance imaging (MRI) technology allow targeting very small areas of the brain, such as the brainstem, the region of the brain which contols the upper airway muscles. MRI can detect subtle signs of damage to brain cells, and can assess brain activation induced by a task, such as moving the tongue . AIM 1. To identify the presence and patterns of damage to brain cells in patients with OSA by MRI scanning. 2. To examine whether patients with the most severe patterns of injury are also those with the greatest difficulties with sleepiness and concentration. 3. To determine whether these brain abnormalities improve after 6 months of treatment of OSA. 4. To assess activity of the brainstem in wakefulness in OSA patients and compare this to the activity in subjects without OSA. SIGNIFICANCE: This project will advance our understanding of the causes of obstructive sleep apnea. We anticipate it will provide a new method for investigating injury to brain cells in this disease. It will also provide a new means for investigating the causes of OSA and for evaluating novel therapies aimed at enhancing the activity of upper airway muscles and preventing obstruction during sleep.Read moreRead less
One of the main trends in the evolution of the primate brain was the huge expansion of the cortical areas devoted to visual processing. However, the exact role of individual areas remains highly controversial, making detailed physiological and anatomical studies in suitable primate models a key step to elucidating their function in the human brain. We will address one particular aspect of this problem, namely the organisation of the cortical areas that provide visual control for skilled movement ....One of the main trends in the evolution of the primate brain was the huge expansion of the cortical areas devoted to visual processing. However, the exact role of individual areas remains highly controversial, making detailed physiological and anatomical studies in suitable primate models a key step to elucidating their function in the human brain. We will address one particular aspect of this problem, namely the organisation of the cortical areas that provide visual control for skilled movements. It is proposed that there are two parallel brain circuits involved in the analysis of motion, one tracking the movement of objects, and the other analysing a person s self-motion. Consider, for example, the task of a tennis player who has to return a serve. In order to achieve this, the brain must precisely integrate information about the ball s motion, as well as information about the player s speed and direction. This requires precise control of eye movements (to keep the eyes on the ball), as well as the ability to control the limb and trunk muscles. The aim of this study will be to map the anatomical framework underlying our ability to process all the relevant visual motion information, and to coordinate the appropriate motor responses. Such work is fundamental for understanding the functional organisation of the brain. It also has the potential to lay the groundwork for developments in areas of applied research, including medicine (e.g. the design of better rehabilitation strategies for people with brain damage), robotics- artificial intelligence (e.g. the improvement of artificial systems capable of vision), and the cognitive sciences (e.g. a better understanding of factors that limit human responses to visual stimuli).Read moreRead less
One of the main trends in the evolution of the primate brain was the huge expansion of the cortical areas devoted to visual processing. However, the exact role of individual areas remains highly controversial, making detailed physiological and anatomical studies in suitable primate models a key step to elucidating their function in the human brain. In this project, we will address the organization of a poorly known group of visual areas, which is located deep in a part of the brain called the in ....One of the main trends in the evolution of the primate brain was the huge expansion of the cortical areas devoted to visual processing. However, the exact role of individual areas remains highly controversial, making detailed physiological and anatomical studies in suitable primate models a key step to elucidating their function in the human brain. In this project, we will address the organization of a poorly known group of visual areas, which is located deep in a part of the brain called the interhemispheric fissure (the medial complex of visual areas). Preliminary evidence suggests that these areas may provide anatomical shortcuts linking vision, behavioural reactions, and emotion. Suppose, for example, that you are sitting outside reading. Although deep in concentration, you are still able to detect the sudden movement of an approaching object in your peripheral field of vision. In many cases you can react (e.g., by ducking , or raising your arms to protect the face) long before you register what the object actually is. An adrenaline rush often accompanies these quick motor reactions, implying a parallel activation of the autonomic nervous system. While the mechanism by which the brain promotes these quick reactions remains poorly understood, we believe that the medial complex of visual areas holds the key. The aim of this study is to map the anatomical framework underlying our ability to react to sudden stimuli in our peripheral visual field. Such work is fundamental for understanding the functional organization of the brain. It also has the potential to lay the groundwork for developments in areas of applied research, including medicine (e.g. the design of better rehabilitation strategies for people with brain damage) and the cognitive sciences (e.g. a better understanding of the factors that limit human responses to visual stimuli).Read moreRead less
The Neurochemical Basis Of Behavioural Control: Relevance For Addiction, OCD And Tourette Syndrome.
Funder
National Health and Medical Research Council
Funding Amount
$375,225.00
Summary
Both the control of voluntry responses over reflexive habits, and the ability to direct voluntary responses appropriately when there are conflicting choices present in the world, are thought to be important in mental disorders such as drug addiction, tic disorders such as Tourette syndrome and obsessive compulsive disorder. This project will examine the brain neurochemistry that underpins our ability to control voluntary responses, providing insight into potential pharmacological interventions.
Understanding Fear Of Falling And Risk Taking In Older People
Funder
National Health and Medical Research Council
Funding Amount
$355,877.00
Summary
Fear of falling is a very significant issue for many older people. Estimates of the prevalence of fear of falling in older community-dwelling people range from 29 to 92% in those who have suffered previous falls, and 12 to 65% in those have not. Fear of falling can lead to restriction and curtailment of activity, reduced quality of life, anxiety, depression and social isolation. To date, all studies addressing fear of falling have simply considered no fear to be good and presence of fear to be b ....Fear of falling is a very significant issue for many older people. Estimates of the prevalence of fear of falling in older community-dwelling people range from 29 to 92% in those who have suffered previous falls, and 12 to 65% in those have not. Fear of falling can lead to restriction and curtailment of activity, reduced quality of life, anxiety, depression and social isolation. To date, all studies addressing fear of falling have simply considered no fear to be good and presence of fear to be bad, and have not attempted to assess whether this fear is rational or irrational in relation to actual balance abilities or physical functioning. In this study, we aim to find out which psychological, physical, health and lifestyle factors distinguish between older people with and without an irrational fear of falling based on their actual physical falling risk. We also wish to understand the role that fear of falling and other psychological factors (anxiety, depression and avoidance) play in causing older people to fall; and to measure how falls can lead to increased fear of falling, anxiety and depression and reduced physical functioning. The complex nature of psychological risk factors of falling and the limited background information on this subject, hampers its integration in falls prevention programs. Although there is growing awareness of this problem among health care providers, additional research is needed about why older people develop a fear of falling in order to fully understand fear of falling and to tailor specific intervention and prevention strategies.Read moreRead less
It is known that about 10% of patients over the age of 55 have difficulty with cognition and thinking 3 months after surgery and anaesthesia. Over 2 million operations involving anaesthesia are administered in Australia every year and increasingly the patients are elderly and thus exposed to the risk of cognitive decline after surgery. We have preliminary data showing that people who have mild changes in cognitive function before the surgery (known as mild cognitive impairment) are susceptible t ....It is known that about 10% of patients over the age of 55 have difficulty with cognition and thinking 3 months after surgery and anaesthesia. Over 2 million operations involving anaesthesia are administered in Australia every year and increasingly the patients are elderly and thus exposed to the risk of cognitive decline after surgery. We have preliminary data showing that people who have mild changes in cognitive function before the surgery (known as mild cognitive impairment) are susceptible to further cognitive decline after anaesthesia and surgery. In order to explore the relationship between preoperative cognitive function and postoperative cognitive decline we plan to measure cognition in patients scheduled for elective hip replacement surgery. This is done by asking patients to complete a standard battery of cognitive tests. We will be then able to identify those patients who already have mild cognitive impairment before surgery and by repeated testing after the operation will be able to demonstrate if preoperative cognitive status is a determinant of postoperative cognitive dysfunction. The primary aim of the research is to test whether cognitive impairment before surgery leads to cognitive deficit after surgery in patients over the age of 65 undergoing total hip replacement surgery. The study will also establish the prevalence of pre-operative mild cognitive impairment and the magnitude of postoperative cognitive dysfunction after surgery in this patient group. The study will explore the relationship between preoperative cognitive status and postoperative cognitive deficit , providing information about the incidence, natural history and risk factors of postoperative cognitive deficit. This work will enable further research to isolate specific causative factors and identify therapeutic and prophylactic strategies.Read moreRead less
The Neurophysiology Of Abnormal Motor Development In Preterm Children
Funder
National Health and Medical Research Council
Funding Amount
$479,967.00
Summary
Better neonatal care has improved survival of prematurely born children. While most of these children will have no obvious brain lesion and attend mainstream schools, many will experience motor and cognitive difficulties and problems with social adjustment. However, the physiological mechanisms underlying this dysfunction are unknown. We will study preterm and term born children to elucidate the physiological mechanisms underlying motor and cognitive dysfunction associated with prematurity.
Comparison Of Cognitive-behavioural Treatments For Children With PTSD Following An Accidental Injury: A Multi-site RCT.
Funder
National Health and Medical Research Council
Funding Amount
$359,111.00
Summary
Children who experience a traumatic event are at increased risk of developing Post traumatic stress disorder (PTSD). Despite the significant consequences, and the poor prognosis of this disorder, few evaluations of interventions for PTSD in children exist. This project will compare two active treatments (child vs. family-focused cognitive behaviour therapy) for children experiencing PTSD following an accidental injury (the most common category of traumatic events experienced by children).